AI Article Synopsis
- RONIN (THAP11) is identified as an important transcriptional regulator that affects the proliferation of retinal progenitor cells (RPCs), balancing their growth and specialization.
- Loss of RONIN in RPCs leads to similar issues as those seen in Cyclin D1 null mutants, including halted cell-cycle progression and degeneration of photoreceptors.
- RONIN predominantly influences the expression of mitochondrial genes linked to the electron transport chain, impacting ATP production and increasing oxidative stress due to diminished mitochondrial activity.
Article Abstract
A fundamental principle governing organ size and function is the fine balance between cell proliferation and cell differentiation. Here, we identify RONIN (THAP11) as a key transcriptional regulator of retinal progenitor cell (RPC) proliferation. RPC-specific loss of Ronin results in a phenotype strikingly similar to that resulting from the G1- to S-phase arrest and photoreceptor degeneration observed in the Cyclin D1 null mutants. However, we determined that, rather than regulating canonical cell-cycle genes, RONIN regulates a cohort of mitochondrial genes including components of the electron transport chain (ETC), which have been recently implicated as direct regulators of the cell cycle. Coincidentally, with premature cell-cycle exit, Ronin mutants exhibited deficient ETC activity, reduced ATP levels, and increased oxidative stress that we ascribe to specific loss of subunits within complexes I, III, and IV. These data implicate RONIN as a positive regulator of mitochondrial gene expression that coordinates mitochondrial activity and cell-cycle progression.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4767647 | PMC |
| http://dx.doi.org/10.1016/j.celrep.2016.01.039 | DOI Listing |
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